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v/vlib/orm/orm.v

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module orm
import time
pub const (
num64 = [typeof[i64]().idx, typeof[u64]().idx]
nums = [
typeof[i8]().idx,
typeof[i16]().idx,
typeof[int]().idx,
typeof[u8]().idx,
typeof[u16]().idx,
typeof[u32]().idx,
typeof[bool]().idx,
]
float = [
typeof[f32]().idx,
typeof[f64]().idx,
]
type_string = typeof[string]().idx
time = -2
serial = -1
type_idx = {
'i8': typeof[i8]().idx
'i16': typeof[i16]().idx
'int': typeof[int]().idx
'i64': typeof[i64]().idx
'u8': typeof[u8]().idx
'u16': typeof[u16]().idx
'u32': typeof[u32]().idx
'u64': typeof[u64]().idx
'f32': typeof[f32]().idx
'f64': typeof[f64]().idx
'bool': typeof[bool]().idx
'string': typeof[string]().idx
}
string_max_len = 2048
)
pub type Primitive = InfixType
| bool
| f32
| f64
| i16
| i64
| i8
| int
| string
| time.Time
| u16
| u32
| u64
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| u8
pub enum OperationKind {
neq // !=
eq // ==
gt // >
lt // <
ge // >=
le // <=
}
pub enum MathOperationKind {
add // +
sub // -
mul // *
div // /
}
pub enum StmtKind {
insert
update
delete
}
pub enum OrderType {
asc
desc
}
fn (kind OperationKind) to_str() string {
str := match kind {
.neq { '!=' }
.eq { '=' }
.gt { '>' }
.lt { '<' }
.ge { '>=' }
.le { '<=' }
}
return str
}
fn (kind OrderType) to_str() string {
return match kind {
.desc {
'DESC'
}
.asc {
'ASC'
}
}
}
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// Examples for QueryData in SQL: abc == 3 && b == 'test'
// => fields[abc, b]; data[3, 'test']; types[index of int, index of string]; kinds[.eq, .eq]; is_and[true];
// Every field, data, type & kind of operation in the expr share the same index in the arrays
// is_and defines how they're addicted to each other either and or or
// parentheses defines which fields will be inside ()
pub struct QueryData {
pub:
fields []string
data []Primitive
types []int
parentheses [][]int
kinds []OperationKind
is_and []bool
}
pub struct InfixType {
pub:
name string
operator MathOperationKind
right Primitive
}
pub struct TableField {
pub:
name string
typ int
is_time bool
default_val string
is_arr bool
attrs []StructAttribute
}
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// table - Table name
// is_count - Either the data will be returned or an integer with the count
// has_where - Select all or use a where expr
// has_order - Order the results
// order - Name of the column which will be ordered
// order_type - Type of order (asc, desc)
// has_limit - Limits the output data
// primary - Name of the primary field
// has_offset - Add an offset to the result
// fields - Fields to select
// types - Types to select
pub struct SelectConfig {
pub:
table string
is_count bool
has_where bool
has_order bool
order string
order_type OrderType
has_limit bool
primary string = 'id' // should be set if primary is different than 'id' and 'has_limit' is false
has_offset bool
fields []string
types []int
}
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// Interfaces gets called from the backend and can be implemented
// Since the orm supports arrays aswell, they have to be returned too.
// A row is represented as []Primitive, where the data is connected to the fields of the struct by their
// index. The indices are mapped with the SelectConfig.field array. This is the mapping for a struct.
// To have an array, there has to be an array of structs, basically [][]Primitive
//
// Every function without last_id() returns an optional, which returns an error if present
// last_id returns the last inserted id of the db
pub interface Connection {
@select(config SelectConfig, data QueryData, where QueryData) ![][]Primitive
insert(table string, data QueryData) !
update(table string, data QueryData, where QueryData) !
delete(table string, where QueryData) !
create(table string, fields []TableField) !
drop(table string) !
last_id() int
}
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// Generates an sql stmt, from universal parameter
// q - The quotes character, which can be different in every type, so it's variable
// num - Stmt uses nums at prepared statements (? or ?1)
// qm - Character for prepared statment, qm because of quotation mark like in sqlite
// start_pos - When num is true, it's the start position of the counter
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pub fn orm_stmt_gen(table string, q string, kind StmtKind, num bool, qm string, start_pos int, data QueryData, where QueryData) (string, QueryData) {
mut str := ''
mut c := start_pos
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mut data_fields := []string{}
mut data_data := []Primitive{}
match kind {
.insert {
mut values := []string{}
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mut select_fields := []string{}
for i in 0 .. data.fields.len {
if data.data.len > 0 {
match data.data[i].type_name() {
'string' {
if (data.data[i] as string).len == 0 {
continue
}
}
'time.Time' {
if (data.data[i] as time.Time).unix == 0 {
continue
}
}
else {}
}
data_data << data.data[i]
}
select_fields << '${q}${data.fields[i]}${q}'
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values << factory_insert_qm_value(num, qm, c)
data_fields << data.fields[i]
c++
}
str += 'INSERT INTO ${q}${table}${q} ('
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str += select_fields.join(', ')
str += ') VALUES ('
str += values.join(', ')
str += ')'
}
.update {
str += 'UPDATE ${q}${table}${q} SET '
for i, field in data.fields {
str += '${q}${field}${q} = '
if data.data.len > i {
d := data.data[i]
if d is InfixType {
op := match d.operator {
.add {
'+'
}
.sub {
'-'
}
.mul {
'*'
}
.div {
'/'
}
}
str += '${d.name} ${op} ${qm}'
} else {
str += '${qm}'
}
} else {
str += '${qm}'
}
if num {
str += '${c}'
c++
}
if i < data.fields.len - 1 {
str += ', '
}
}
str += ' WHERE '
}
.delete {
str += 'DELETE FROM ${q}${table}${q} WHERE '
}
}
if kind == .update || kind == .delete {
for i, field in where.fields {
mut pre_par := false
mut post_par := false
for par in where.parentheses {
if i in par {
pre_par = par[0] == i
post_par = par[1] == i
}
}
if pre_par {
str += '('
}
str += '${q}${field}${q} ${where.kinds[i].to_str()} ${qm}'
if num {
str += '${c}'
c++
}
if post_par {
str += ')'
}
if i < where.fields.len - 1 {
str += ' AND '
}
}
}
str += ';'
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return str, QueryData{
fields: data_fields
data: data_data
types: data.types
kinds: data.kinds
is_and: data.is_and
}
}
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// Generates an sql select stmt, from universal parameter
// orm - See SelectConfig
// q, num, qm, start_pos - see orm_stmt_gen
// where - See QueryData
pub fn orm_select_gen(orm SelectConfig, q string, num bool, qm string, start_pos int, where QueryData) string {
mut str := 'SELECT '
if orm.is_count {
str += 'COUNT(*)'
} else {
for i, field in orm.fields {
str += '${q}${field}${q}'
if i < orm.fields.len - 1 {
str += ', '
}
}
}
str += ' FROM ${q}${orm.table}${q}'
mut c := start_pos
if orm.has_where {
str += ' WHERE '
for i, field in where.fields {
mut pre_par := false
mut post_par := false
for par in where.parentheses {
if i in par {
pre_par = par[0] == i
post_par = par[1] == i
}
}
if pre_par {
str += '('
}
str += '${q}${field}${q} ${where.kinds[i].to_str()} ${qm}'
if num {
str += '${c}'
c++
}
if post_par {
str += ')'
}
if i < where.fields.len - 1 {
if where.is_and[i] {
str += ' AND '
} else {
str += ' OR '
}
}
}
}
// Note: do not order, if the user did not want it explicitly,
// ordering is *slow*, especially if there are no indexes!
if orm.has_order {
str += ' ORDER BY '
str += '${q}${orm.order}${q} '
str += orm.order_type.to_str()
}
if orm.has_limit {
str += ' LIMIT ${qm}'
if num {
str += '${c}'
c++
}
}
if orm.has_offset {
str += ' OFFSET ${qm}'
if num {
str += '${c}'
c++
}
}
str += ';'
return str
}
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// Generates an sql table stmt, from universal parameter
// table - Table name
// q - see orm_stmt_gen
// defaults - enables default values in stmt
// def_unique_len - sets default unique length for texts
// fields - See TableField
// sql_from_v - Function which maps type indices to sql type names
// alternative - Needed for msdb
pub fn orm_table_gen(table string, q string, defaults bool, def_unique_len int, fields []TableField, sql_from_v fn (int) !string, alternative bool) !string {
mut str := 'CREATE TABLE IF NOT EXISTS ${q}${table}${q} ('
if alternative {
str = 'IF NOT EXISTS (SELECT * FROM sysobjects WHERE name=${q}${table}${q} and xtype=${q}U${q}) CREATE TABLE ${q}${table}${q} ('
}
mut fs := []string{}
mut unique_fields := []string{}
mut unique := map[string][]string{}
mut primary := ''
for field in fields {
if field.is_arr {
continue
}
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mut default_val := field.default_val
mut no_null := false
mut is_unique := false
mut is_skip := false
mut unique_len := 0
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mut field_name := sql_field_name(field)
mut ctyp := sql_from_v(sql_field_type(field)) or {
field_name = '${field_name}_id'
sql_from_v(7)!
}
for attr in field.attrs {
match attr.name {
'primary' {
primary = field.name
}
'unique' {
if attr.arg != '' {
if attr.kind == .string {
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unique[attr.arg] << field_name
continue
} else if attr.kind == .number {
unique_len = attr.arg.int()
is_unique = true
continue
}
}
is_unique = true
}
'nonull' {
no_null = true
}
'skip' {
is_skip = true
}
'sql_type' {
if attr.kind != .string {
return error("sql_type attribute need be string. Try [sql_type: '${attr.arg}'] instead of [sql_type: ${attr.arg}]")
}
ctyp = attr.arg
}
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'default' {
if attr.kind != .string {
return error("default attribute need be string. Try [default: '${attr.arg}'] instead of [default: ${attr.arg}]")
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}
if default_val == '' {
default_val = attr.arg
}
}
else {}
}
}
if is_skip {
continue
}
mut stmt := ''
if ctyp == '' {
return error('Unknown type (${field.typ}) for field ${field.name} in struct ${table}')
}
stmt = '${q}${field_name}${q} ${ctyp}'
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if defaults && default_val != '' {
stmt += ' DEFAULT ${default_val}'
}
if no_null {
stmt += ' NOT NULL'
}
if is_unique {
mut f := 'UNIQUE(${q}${field_name}${q}'
if ctyp == 'TEXT' && def_unique_len > 0 {
if unique_len > 0 {
f += '(${unique_len})'
} else {
f += '(${def_unique_len})'
}
}
f += ')'
unique_fields << f
}
fs << stmt
}
if primary == '' {
return error('A primary key is required for ${table}')
}
if unique.len > 0 {
for k, v in unique {
mut tmp := []string{}
for f in v {
tmp << '${q}${f}${q}'
}
fs << '/* ${k} */UNIQUE(${tmp.join(', ')})'
}
}
fs << 'PRIMARY KEY(${q}${primary}${q})'
fs << unique_fields
str += fs.join(', ')
str += ');'
return str
}
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// Get's the sql field type
fn sql_field_type(field TableField) int {
mut typ := field.typ
if field.is_time {
return -2
}
for attr in field.attrs {
if attr.kind == .plain && attr.name == 'sql' && attr.arg != '' {
if attr.arg.to_lower() == 'serial' {
typ = -1
break
}
typ = orm.type_idx[attr.arg]
break
}
}
return typ
}
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// Get's the sql field name
fn sql_field_name(field TableField) string {
mut name := field.name
for attr in field.attrs {
if attr.name == 'sql' && attr.has_arg && attr.kind == .string {
name = attr.arg
break
}
}
return name
}
// needed for backend functions
pub fn bool_to_primitive(b bool) Primitive {
return Primitive(b)
}
pub fn f32_to_primitive(b f32) Primitive {
return Primitive(b)
}
pub fn f64_to_primitive(b f64) Primitive {
return Primitive(b)
}
pub fn i8_to_primitive(b i8) Primitive {
return Primitive(b)
}
pub fn i16_to_primitive(b i16) Primitive {
return Primitive(b)
}
pub fn int_to_primitive(b int) Primitive {
return Primitive(b)
}
// int_literal_to_primitive handles int literal value
pub fn int_literal_to_primitive(b int) Primitive {
return Primitive(b)
}
// float_literal_to_primitive handles float literal value
pub fn float_literal_to_primitive(b f64) Primitive {
return Primitive(b)
}
pub fn i64_to_primitive(b i64) Primitive {
return Primitive(b)
}
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pub fn u8_to_primitive(b u8) Primitive {
return Primitive(b)
}
pub fn u16_to_primitive(b u16) Primitive {
return Primitive(b)
}
pub fn u32_to_primitive(b u32) Primitive {
return Primitive(b)
}
pub fn u64_to_primitive(b u64) Primitive {
return Primitive(b)
}
pub fn string_to_primitive(b string) Primitive {
return Primitive(b)
}
pub fn time_to_primitive(b time.Time) Primitive {
return Primitive(b)
}
pub fn infix_to_primitive(b InfixType) Primitive {
return Primitive(b)
}
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fn factory_insert_qm_value(num bool, qm string, c int) string {
if num {
return '${qm}${c}'
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} else {
return '${qm}'
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}
}